Induction of protection against vaginal shedding and infertility by a recombinant Chlamydia vaccine

A vaccine formulated with the Chlamydia muridarum recombinant major outer membrane protein, plus the adjuvants CpG and Montanide, was tested for its ability to protect BALB/c mice against a vaginal challenge. Mice were immunized by mucosal [intravaginal (i.vag.) plus colonic (col.), or intranasal (i.n.) plus sublingual (s.l.)], or systemic [intramuscular (i.m.) plus subcutaneous (s.c.)] routes, and a combination of mucosal priming and systemic boosting routes. A negative control group was vaccinated with the Neisseria gonorrhoeae porin B (Ng-rPorB) and a positive control group was inoculated in the nares with live Chlamydia. The strongest Chlamydia-specific humoral and cell-mediated immune responses were observed in the groups immunized by a combination of mucosal and systemic routes. Following the vaginal challenge, groups immunized using mucosal priming followed by systemic immunization had a significant decrease in the number of mice with positive vaginal cultures. For example, of the mice immunized i.n./s.l. + i.m./s.c., 24% had positive cultures during the six weeks of the experiment versus 69% for the negative control group immunized with Ng-rPorB (P < 0.05). Similarly, the groups of mice primed by the mucosal routes and boosted by the systemic routes had significantly less IFU in the vaginal cultures when compared to the Ng-rPorB animals (P < 0.05). These combination groups were also protected against infertility. The two groups had fertility rates of 100% (i.n./s.l. + i.m./s.c.) and 81% (i.vag./col. + i.m./s.c.) equivalent to the positive-control group immunized with live Chlamydia (100% fertility; P > 0.05). These results show the importance of the schedule and routes of vaccination and represent the first study to show protection against infertility by a Chlamydia recombinant subunit vaccine.     

Protection against an intranasal challenge by vaccines formulated with native and recombinant preparations of the Chlamydia trachomatis major outer membrane protein

To compare the ability of a native and a recombinant preparation of the major outer membrane protein of Chlamydia trachomatis mouse pneumonitis (MoPn; Ct-nMOMP and Ct-rMOMP) to protect against an intranasal (i.n.) challenge, BALB/c mice were vaccinated by the intramuscular (i.m.) and subcutaneous (s.c.) routes using CpG-1826 and Montanide ISA 720 as adjuvants. Animals inoculated i.n. with live elementary bodies (EB) of Chlamydia served as a positive control. Negative control groups were immunized with either Neisseria gonorrhoeae recombinant porin B (Ng-rPorB) or with minimal essential medium (MEM-0). Mice immunized with Ct-rMOMP, Ct-nMOMP and EB developed a strong immune response as shown by high levels of Chlamydia specific antibodies in serum and a strong T-cell lymphoproliferative response. Following the i.n. challenge with 10⁴ inclusion forming units (IFU) of C. trachomatis, mice immunized with Ct-nMOMP or Ct-rMOMP lost significantly less weight than the negative control animals immunized with Ng-rPorB or MEM-0 (P < 0.05). However, mice vaccinated with the Ct-nMOMP lost less weight than those immunized with the Ct-rMOMP (P < 0.05). Mice were euthanized at 10 days following the challenge, their lungs weighed and the number of IFU of Chlamydia determined. Based on the lung weight and number of IFU recovered, significant protection was observed in the groups of mice immunized with both Ct-nMOMP and the Ct-rMOMP (P < 0.05). Nevertheless, significantly better protection was achieved with the Ct-nMOMP in comparison with the Ct-rMOMP (P < 0.05). In conclusion, vaccination with a preparation of the nMOMP elicited a more robust protection than immunization with rMOMP, suggesting that the conformational structure of MOMP is critical for inducing strong protection.     

Efficacy of poly[di(sodium carboxylatophenoxy)phosphazene] (PCPP) as mucosal adjuvant to induce protective immunity against respiratory pathogens

Polyphosphazene polyelectrolyte, a potent new mucosal adjuvant candidate, was tested for its ability to elicit protective immunity against several respiratory diseases. Groups of mice were intranasally (i.n.) vaccinated with poly[di(sodium carboxylatophenoxy)phosphazene] (PCPP) together with several vaccine antigens such as pertussis toxoid, pneumococcal surface protein A, and formalin-inactivated PR8 influenza virus. Results showed predominant levels of antigen-specific IgG and IgA antibodies in serum and bronchial alveolar lavage fluids after vaccination with PCPP plus antigen when compared to antigen alone. In addition, there were significantly higher levels of the secretory form of IgA antibody in the mucosal secretions (i.e., nasal wash, saliva, vaginal wash, and fecal extracts). Moreover, i.n. vaccination with PCPP resulted in brisk numbers of IgG and IgA antibody-forming cells in the nasal passage, lung, and sub-mandibular glands of vaccinated mice. Of note, PCPP administration resulted in mixed Th1 and Th2 type responses (i.e., high levels of IgG2a and IgG1 as well as IFN-γ and IL-4). Most interestingly, i.n. challenge with vaccine antigens together with PCPP elicited strong protective efficacy against respiratory infection with Bordetella pertussis, Streptococcus pneumoniae, and influenza virus. Taken together, these results suggest that PCPP may be a promising candidate for mucosal adjuvant to elicit protective immunity against respiratory infectious diseases.     

Effect of priming/booster immunisation protocols on immune response to canine parvovirus peptide induced by vaccination with a chimaeric plant virus construct

Expression of a 17-mer peptide sequence from canine parvovirus expressed on cowpea mosaic virus (CPMV) to form chimaeric virus particles (CVPs) creates vaccine antigens that elicit strong anti-peptide immune responses in mice. Systemic (subcutaneous, s.c.) immunisation and boosting with such CVP constructs produces IgG(2a) serum antibody responses, while mucosal (intranasal, i.n.) immunisation and boosting elicits intestinal IgA responses. Combinations of systemic and mucosal routes for priming and boosting immunisations were used to examine their influence on the level, type and location of immune response generated to one of these constructs (CVP-1). In all cases, s.c. administration, whether for immunisation or boosting, generated a Th1-biased response, reflected in a predominantly IgG(2a) serum antibody isotype and secretion of IFN-gamma from in vitro-stimulated lymphocytes. Serum antibody responses were greatest in animals primed and boosted subcutaneously, and least in mucosally vaccinated mice. The i.n. exposure also led to IFN-gamma release from in vitro-stimulated cells, but serum IgG(2a) was significantly elevated only in mice primed intranasally and boosted subcutaneously. Peptide- and wild-type CPMV-specific IgA responses in gut lavage fluid were greatest in animals exposed mucosally and least in those primed and boosted subcutaneously or primed subcutaneously and boosted orally. Lymphocytes from immunised mice proliferated in response to in vitro stimulation with CPMV but not with peptide. The predominant secretion of IFN-gamma from all immunising/boosting combinations indicates that the route of vaccination and challenge does not alter the Th1 bias of the response to CVP constructs. However, optimal serum and intestinal antibody responses were achieved by combining s.c. and i.n. administration.     

Barriers to implementation of the new targeted BCG vaccination in France: a cross sectional study

The aim of the study was to assess factors influencing BCG vaccination among targeted children after the end of universal and mandatory BCG vaccination in France. A cross-sectional study was conducted in 2009 among general practitioners (GPs) of the French Sentinel Network. With the participation of 358 physician-investigators, 920 children were included. Of the 261 children (31%) identified to be at risk of tuberculosis, only 113 (44%) were vaccinated. The median number of French criteria for BCG vaccination correctly cited by the GPs was 3 of the existing 6. Of the 10 proposed, a median number of 5 regions in the world according to their level of tuberculosis risk were correctly classified by GPs. After adjustment using an alternating logistic model, 7 variables were found to be associated with the immunisation status of the target population. Six of these increased the probability of being vaccinated: children older than 6 months (OR = 3.4 (CI 95% [1.4-8.6])), residents in central Paris or its suburbs (OR = 14.7 [4.4-49.5]), children expected to travel to highly endemic regions (OR = 3.5 [1.4-8.6]), those living in unfavourable conditions (OR = 19.9 [6.2-63.9]), the GP's good knowledge of vaccination guidelines (OR = 1.4 [1.1-1.9]) and the GP's perception of tuberculosis as a common disease (OR = 2.2 [1.1-4.5]). Surprisingly, GPs with university training on infectious diseases tended to be more reluctant to follow vaccination guidelines (OR = 0.14 [0.1-0.4]). Actions targeted at these factors could contribute to improving BCG immunisation coverage.     

The mast cell activator compound 48/80 is safe and effective when used as an adjuvant for intradermal immunization with Bacillus anthracis protective antigen

We evaluated the safety and efficacy of the mast cell activator compound 48/80 (C48/80) when used as an adjuvant delivered intradermally (ID) with recombinant anthrax protective antigen (rPA) in comparison with two well-known adjuvants. Mice were vaccinated in the ear pinnae with rPA or rPA + C48/80, CpG oligodeoxynucleotides (CpG), or cholera toxin (CT). All adjuvants induced similar increases in serum anti-rPA IgG and lethal toxin neutralizing antibodies. C48/80 induced a balanced cytokine production (Th1/Th2/Th17) by antigen-restimulated splenocytes, minimal injection site inflammation, and no antigen-specific IgE. Histological analysis demonstrated that vaccination with C48/80 reduced the number of resident mast cells and induced an injection site neutrophil influx within 24 h. Our data demonstrate that C48/80 is a safe and effective adjuvant, when used by the intradermal route, to induce protective antibody and balanced Th1/Th2/Th17 responses.     

A mucosal vaccination approach for herpes simplex virus type 2

An estimated 1 out of every 5 Americans is infected with herpes simplex virus type 2 (HSV-2). Efforts in developing a potent vaccine for HSV-2 have shown limited success. Here we describe a heterologous vaccination strategy for HSV-2 based on an intramuscular DNA prime followed by a liposome-encapsulated antigen boost delivered intranasally. Both portions of the vaccine express the immunogenic HSV-2 glycoprotein D. In female Balb/c mice, this heterologous immunisation regimen stimulated high titers of serum neutralising antibodies, a DNA priming dose dependent T helper type response, enhanced mucosal immune responses and potent protective immunity at the portal of entry for the virus: the vaginal cavity. A clear synergistic effect on immune responses and protection from infection was seen using this heterologous immunisation approach. Suboptimal DNA prime (0.5 μg) followed by the liposome boost resulted in an 80% survival rate when mice were infected 2 weeks after immunisation. A higher dose of DNA priming (5 μg) followed by the liposome boost resulted in sterilising immunity in 80% of mice. The vaccine induced durable protection in mice, demonstrated by a 60% survival rate when lethal infections were performed 20 weeks after the immunisation primed with 0.5 μg of DNA vaccine.     

Onjisaponins, from the root of Polygala tenuifolia Willdenow, as effective adjuvants for nasal influenza and diphtheria–pertussis–tetanus vaccines

Active substances from hot water extracts from 267 different Chinese and Japanese medicinal herbs were screened for mucosal adjuvant activity with influenza HA vaccine in mice. The extract from the root of Polygala tenuifolia was found to contain potent mucosal adjuvant activity. The active substances were purified and identified as onjisaponins A, E, F, and G. When each onjisaponin (10 μg) was intranasally (i.n.) inoculated with influenza vaccine (10 μg) in mice, serum hemagglutination-inhibiting (HI) antibody titers increased 3–14 times over control mice administered vaccine alone after 4 weeks. When each onjisaponin (10 μg) was i.n. inoculated with the vaccine (10 μg) followed by i.n. vaccination of the vaccine alone after 3 weeks, serum HI antibody titers increased 27–50 fold over those mice given i.n. vaccinations without onjisaponins. These same conditions also significantly increased nasal anti-influenza virus IgA antibody titers. Two inoculations with onjisaponin F (1 μg) and influenza HA vaccine (1 μg) at 3 weeks intervals, significantly increased serum HI antibody and nasal anti-influenza virus IgA and IgG antibody titers after only 1 week over mice given HA vaccine alone after the secondary vaccination. Intranasal vaccination with onjisaponin F inhibited proliferation of mouse adapted influenza virus A/PR/8/34 in bronchoalveolar lavages of infected mice. Separate intranasal vaccinations with onjisaponins A, E, F, and G (10 μg) each and diphtheria–pertussis–tetanus (DPT) vaccine (10 μg) of mice followed by i.n. vaccination with DPT vaccine alone after 4 weeks showed significant increases in serum IgG and nasal IgA antibody titers after 2 weeks following secondary vaccination over mice vaccinated with DPT vaccine alone. All onjisaponins showed little hemolytic activity at concentrations up to 100 μg/ml. The results of this study suggest that onjisaponins may provide safe and potent adjuvants for intranasal inoculation of influenza HA and DPT vaccines.     

Enhancement of the protective efficacy of a Chlamydia trachomatis recombinant vaccine by combining systemic and mucosal routes for immunization

Chlamydia trachomatis causes respiratory and sexually transmitted infections. Here, we tested a vaccine formulated with the recombinant major outer membrane protein from C. trachomatis mouse pneumonitis (CT-MoPn) for its ability to protect mice against an intranasal (i.n.) challenge. The adjuvants CpG and Montanide were used for systemic routes, intramuscular (i.m.) and subcutaneous (s.c.), and cholera toxin for mucosal routes, sublingual (s.l.) and colonic (c.l.). Mucosal immunizations were performed either alone or in combination with systemic routes. Mice inoculated i.n. with 10⁴ inclusion-forming units (IFU) of CT-MoPn served as a positive control and the Neisseria gonorrhoeae recombinant porin B (Ng-rPorB) as the negative antigen control. Immunized animals were challenged i.n. with 10⁴ IFU of CT-MoPn. Following immunization the combination groups showed high chlamydial serum IgG titers (s.l. + i.m. + s.c. 25,600; c.l + i.m. + s.c. 102,400) and the IgG2a/IgG1 ratios indicated a Th1 response. Following the i.n. challenge the s.l. + i.m. + s.c. group showed the best protection as demonstrated by an increase in body weight of 0.3% over the 10 day course of infection. A statistically significant difference was found when compared with the Ng-rPorB immunized animals that had lost 20% of their original body weight (P < 0.05). In addition, the repeated measures ANOVA test showed significant difference in body weight change for the combined immunized groups vs their mucosal counterparts and also the systemic immunized group. A statistically significant difference (P < 0.05) was also observed in the number of IFUs recovered from the lungs when the s.l. + i.m. + s.c. (2.8 × 10⁶) and c.l. + i.m. + s.c. (3.4 × 10⁶) groups were compared to their respective mucosal only groups (s.l.: 61.9 × 10⁶ and c.l: 136.2 × 10⁶) and the control Ng-rPorB immunized mice (198.2 × 10⁶) (P < 0.05). In conclusion, a combined systemic plus mucosal vaccination provides better protection against a respiratory challenge with C. trachomatis than either systemic or mucosal immunizations alone.     

Methylglycol chitosan and a synthetic TLR4 agonist enhance immune responses to influenza vaccine administered sublingually

Influenza is a vaccine-preventable contagious respiratory illness caused by influenza (flu) viruses which can lead to hospitalization and sometimes even death. Current flu vaccines delivered intramuscularly (IM) or intradermally (ID) are less effective at eliciting protective mucosal immune responses and vaccines delivered intranasally (IN) possess potential safety concerns. Sublingual (SL) vaccination is a promising alternative route for vaccine delivery which has been indicated as safe and effective at inducing protective immune responses in both systemic and mucosal compartments. We evaluated the efficacy of methylglycol chitosan (MGC) and a synthetic toll-like receptor 4 agonist (CRX-601), alone or in combination, for improving systemic and mucosal immune responses to a monovalent detergent-split flu virus vaccine delivered SL. SL vaccination of mice with split-flu vaccine formulated with either MGC or CRX-601 resulted in specific serum IgG and mucosal IgA titers that were significantly greater than titers from non-adjuvanted vaccination and equivalent to or greater than titers in mice vaccinated IM. Our results demonstrate that SL vaccination utilizing MGC or CRX-601 as adjuvants is a viable alternative route of vaccination for flu which can elicit systemic immune responses equivalent to or greater than IM vaccination with the added benefit of stimulating a robust specific mucosal immune response.     

Neonatal immune response and serum bactericidal activity induced by a meningococcal conjugate vaccine is enhanced by LT-K63 and CpG2006

Neonates have a poorly developed immune system. Therefore it is important to develop vaccination strategies that induce protective immunity and immunological memory against pathogens early in life. The immunogenicity of a meningococcal serogroup C polysaccharide conjugate (MenC-CRM(197)) was assessed in neonatal mice, and effects of LT-K63 and CpG2006 and immunisation routes were compared. Neonatal mice were primed subcutaneously (s.c.) or intranasally (i.n.) with MenC-CRM(197) with or without LT-K63 or CpG2006 and re-immunised 16 and 30 days later by the same route and formulation. Antibody levels were measured and generation of immunological memory assessed by affinity maturation and kinetics of the Ab response. Serum bactericidal activity (SBA) was measured to evaluate protective efficacy. The second and third dose of MenC-CRM(197) mixed with either LT-K63 or CpG2006 induced a rapid increase in MenC-specific IgG antibodies, to levels higher than elicited by MenC-CRM(197) alone (P<0.01) and in unimmunised mice (P<0.001), indicating efficient generation of memory by priming through both s.c. and i.n. routes. SBA was detected after three s.c. immunisations with MenC-CRM(197) s.c. alone. However, only two doses of MenC-CRM(197)+LT-K63 or MenC-CRM(197)+CpG2006 were needed to induce SBA levels>16. LT-K63 and CpG2006 enhanced neonatal antibody responses, affinity maturation, immunological memory to the conjugate MenC-CRM(197) and protective immunity. These results encourage the development of neonatal vaccination strategies to induce protective immunity and immunological memory against meningococcal disease.     

Induction of protective immunity by vaccination against Chlamydia trachomatis using the major outer membrane protein adjuvanted with CpG oligodeoxynucleotide coupled to the nontoxic B subunit of cholera toxin

The present study was undertaken to test the efficacy of immunization with the native major outer membrane protein (nMOMP) of Chlamydia trachomatis mouse pneumonitis (MoPn) serovar in combination with a novel immunostimulatory adjuvant consisting of CpG oligodeoxynucleotide (ODN) linked to the nontoxic B subunit of cholera toxin (CTB-CpG) to elicit a protective immune response to C. trachomatis. High levels of Chlamydia-specific IgG antibodies were detected in the sera from BALB/c mice immunized intramuscularly and subcutaneously (i.m. + s.c.) with the nMOMP/CTB-CpG vaccine or with nMOMP adjuvanted with a mixture of CT and CpG ODN (CT + CpG). Further, these immunization schemes gave rise to significant T-cell-mediated Chlamydia-specific immune responses. No Chlamydia-specific humoral or cell-mediated immune responses were detected in the control mice vaccinated with ovalbumin together with either CTB-CpG or CT + CpG. Following an intranasal challenge with C. trachomatis the groups of mice immunized with nMOMP plus CTB-CpG, CT + CpG or live C. trachomatis were found to be protected based on their change in body weight and lung weight as well as number of inclusion forming unit recovered from the lungs, as compared with control groups immunized with ovalbumin plus either adjuvants. Interestingly, IFN-γ-producing CD4⁺, but not CD8⁺, T-cells showed a significant correlation with the outcomes of the challenge. In conclusion, nMOMP in combination with the novel adjuvant CTB-CpG elicited a significant antigen-specific antibody and cell-mediated immune responses as well as protection against a pulmonary challenge with C. trachomatis.     

Influenza immunization: intranasal live vaccinia recombinant contrasted with parenteral inactivated vaccine.

To compare the efficacy and duration of the immune response to local and systemic vaccination, Balb/c mice were vaccinated either intraperitoneally (i.p.) with an inactivated A/PR/8/34 (H1N1) vaccine or intranasally (i.n.) with a vaccinia recombinant containing the H1 gene of influenza. The i.p. inactivated vaccine stimulated high serum IgG anti-influenza titres and protected the lungs against viral challenge for the duration of the experiment (17 months). Little nasal wash IgA was induced and the noses were susceptible to challenge. Animals vaccinated i.n. with the recombinant had lower serum IgG titres and the lungs showed poor protection against challenge. Nasal wash IgA titres were higher, however, and the noses were largely protected from viral challenge for 17 months.     

Evaluation and validation of a serum bactericidal antibody assay for Haemophilus influenzae type b and the threshold of protection

Prior to routine immunisation, Haemophilus influenzae serotype b (Hib) was a major cause of serious bacterial infections, particularly in young children. In the United Kingdom, introduction of the Hib conjugate vaccine into the national childhood immunisation schedule has led to a sustained decline in invasive Hib disease across all age-groups. Evaluation of the immune response to Hib conjugate vaccines involves measurement of serum IgG antibodies against the capsular polyribosyl-ribitol-phosphate (PRP) polysaccharide by enzyme-linked immunosorbent assay (ELISA), with accepted short-term and long-term protective thresholds of ≥0.15 μg/mL and ≥1.0 μg/mL, respectively. These levels were derived by passive immunisation or immunisation with pure polysaccharide, and their relevance for protection following immunisation with conjugate vaccines remains unclear. This study aimed to modify and optimise a serum bactericidal antibody (SBA) assay to evaluate the functional activity of Hib antibodies generated following Hib conjugate vaccination. Validation of the Hib SBA assay was deemed acceptable for all assay parameters tested. A strong correlation between anti-PRP IgG concentrations and SBA titres was observed in vaccinated adults (r = 0.81), as well as infants after primary immunisation at 2, 3, and 4 months (r = 0.635) and after the 12-month booster (r = 0.746). The assay identified some children with high anti-PRP IgG but low SBA activity and vice versa. The predictive protective SBA titre corresponding to a post-booster anti-PRP IgG of 1.0 μg/mL was 8. Thus, the optimised Hib SBA assay was specific and reproducible and correlated with anti-PRP IgG. Such assays may have a role in evaluating immune responses to conjugate vaccines in addition to measuring capsular antibodies.     

Nasal vaccination with attenuated Salmonella expressing VapA: TLR2 activation is not essential for protection against R. equi infection

Virulent strains of Rhodococcus equi have a large plasmid of 80–90 kb, which encodes several virulence-associated proteins (Vap), including VapA, a lipoprotein highly associated with disease. We have previously demonstrated that oral immunisation with attenuated Salmonella enterica Typhimurium strain expressing the antigen VapA (STM VapA+) induces specific and long-term humoral and cellular immunity against R. equi. It was shown that VapA activates Toll-like receptor 2 (TLR2) on macrophages by establishing an interaction that ultimately favours immunity against R. equi infection. The purpose of this study was to evaluate the immune response triggered by nasal immunisation with STM VapA+ and to determine whether TLR2 supports the vaccine effect. We developed an optimised protocol for a single nasal immunisation that conferred protection against R. equi infection in mice, which was manifested by efficient R. equi clearance in challenged animals. Nasal vaccination with STM VapA+ has also induced protection in Tlr2^−/− mice and mice with non-functional TLR4. Moreover, spleen cells of vaccinated mice augmented T-bet expression, as well as the production of IL-12, IFN-γ, nitric oxide and hydrogen peroxide. Notably, the population of CD4⁺ T cells with memory phenotype significantly increased in the spleens of vaccinated mice challenged 1 or 5 months after immunisation. In these animals, the spleen bacterial burden was also reduced. When similar experimental procedures were performed in TLR2 knockout mice, an increase in CD4⁺ T cells with memory phenotype was not observed. Consequently, we conclude that nasal vaccination with attenuated Salmonella expressing the R. equi virulence factor VapA confers long-lasting protection against experimental rhodoccocosis and that TLR2 engagement was not crucial to induce this protection but may be required for a long-term immune response.     

The induction of breast milk pertussis specific antibodies following gestational tetanus–diphtheria–acellular pertussis vaccination

Background

Center for Disease Control and Prevention recommends vaccination of pregnant women with tetanus–diphtheria–acellular pertussis (Tdap).

Aim

To measure pertussis specific antibodies, total protein and their ratio in breast milk following gestational Tdap vaccination.

Methods

Women who received Tdap after the 20th week of pregnancy were recruited and unvaccinated women served as controls. Breast milk total protein, immunoglobulin A (IgA) to pertussis toxin (PT), filamentous hemagglutinin (FHA) and immunoglobulin G (IgG) to PT, FHA and pertactin (PRN) were measured. To overcome the dilution that occurs in the transition from colostrum to mature breast milk, we calculated pertussis specific antibody to total protein ratio.

Results

Pertussis specific IgA was the predominant pertussis immunoglobulin in the colostrum of Tdap vaccinated women with the geometric mean concentrations (GMCs) of IgA to FHA higher than for IgA to PT, 24.12 ELISA units/milliliter (EU/mL) vs. 8.18 EU/mL, respectively, p < 0.004. There were differences between the vaccinated women and controls in the GMCs of IgA to FHA and IgG to PRN in the colostrum, 24.12 EU/mL vs. 6.52 EU/mL, p = 0.01 and 2.46 EU/mL vs. <0.6 EU/mL, p = 0.03, respectively. The GMCs of total protein showed significant decline over 8 weeks in the vaccinated women and controls, p < 0.004. Among vaccinated women, there was significant decline in the GMCs of IgA to PT and FHA over 8 weeks, p < 0.001. The geometric mean ratio of IgA to FHA to total protein also declined significantly over 8 weeks in the vaccinated women, p < 0.01, demonstrating a true decrease, however, pertussis IgA was measurable at 8 weeks.

Conclusions

Select colostrum pertussis antibody levels were significantly higher among women vaccinated with Tdap during pregnancy compared with unvaccinated women. Among vaccinated women, maximal levels of pertussis specific IgA were in the colostrum but still detected at 8 weeks. Lactation may augment infant's protection against pertussis.     

Intranasal vaccination of mice against infection with Mycobacterium tuberculosis

The intranasal (i.n.) route of immunisation, has recently been of active interest in endeavours to improve the efficacy of vaccination against a number of respiratory infections. Here, we examined the outcome of tuberculous infection in BALB/c mice. I.n. application of the BCG-Pasteur strain was found to be highly protective against challenge infection with the pathogenic H37Rv strain given after a 4-week interval, reflected by the 100-fold reduction of CFUs in both lungs and spleens. Vaccination with the recombinant PstS-1 antigen and cholera toxin significantly protected against the challenge given 10 days later, but only marginally after 12 weeks. Histological examination showed, that i.n. vaccination abrogated the confluent infiltration of lungs with inflammatory cells, which surrounds the granulomas in H37Rv challenged control mice. In conclusion, the strong protection demonstrated by BCG suggests that the i.n. route of vaccine delivery deserves further attention toward improving vaccination against tuberculosis.     

Protein-energy malnutrition alters IgA responses to rotavirus vaccination and infection but does not impair vaccine efficacy in mice

Background

Conflicting evidence links malnutrition to the reduced efficacy of rotavirus vaccines in developing countries, where diarrhea and undernutrition remain leading causes of child deaths. Here, we adapted mouse models of rotavirus vaccination (rhesus rotavirus, RRV), rotavirus infection (EDIM), and protein-energy malnutrition (PEM) to test the hypothesis that undernutrition reduces rotavirus vaccine immunogenicity and efficacy.

Methods

We randomized wild type Balb/C dams with 3-day-old pups to a control diet (CD) or an isocaloric, multideficient regional basic diet (RBD) that produces PEM. At 3 weeks of age, we weaned CD and RBD pups to their dams’ diet and subrandomized weanlings to receive a single dose of either live oral rotavirus vaccine (RRV) or PBS. At 6 weeks of age, we orally challenged all groups with murine rotavirus (EDIM). Serum and stool specimens were collected before and after RRV and EDIM administration to measure viral shedding and antibody responses by ELISA.

Results

RBD pups and weanlings exhibited significant failure to thrive compared to age-matched CD mice (P < .0001). RRV vaccination induced higher levels of serum anti-RV IgA responses in RBD vs. CD mice (P < .0001). Vaccination protected CD and RBD mice equally against EDIM infection, as measured by viral shedding. In unvaccinated RBD mice, EDIM shedding peaked 1 day earlier (P < .05), however we detected no effects of undernutrition on viral clearance nor of infection on bodyweight. EDIM infection provoked higher anti-RV serum IgA levels in RBD vs. CD mice, regardless of vaccination (P < .0001). Last, RRV vaccination mitigated stool IgA responses to EDIM more in CD vs. RBD mice (P < .0001).

Conclusions

Despite modulated IgA responses to vaccination and infection, undernutrition does not impair rotavirus vaccine efficacy nor exacerbate infection in this mouse model of protein-energy malnutrition. Alternative models are needed to elucidate host-pathogen factors undermining rotavirus vaccine effectiveness in high-risk global settings.     

Early life DNA vaccination with the H gene of Canine distemper virus induces robust protection against distemper

Young mink kits (n = 8) were vaccinated with DNA plasmids encoding the viral haemagglutinin protein (H) of a vaccine strain of Canine distemper virus (CDV). Virus neutralising (VN) antibodies were induced after 2 immunisations and after the third immunisation all kits had high VN antibody titres. The VN antibody titres remained high for more than 4 months and the mink were protected against viraemia, lymphopenia, clinical disease and changes in the percentage of IFN-γ producing peripheral blood leucocytes after challenge inoculation with a recent wild type strain of CDV. Essentially, these results demonstrate that early life DNA vaccination with the H gene of a CDV vaccine strain induced robust protective immunity against a recent wild type CDV.